This Wireless Dual-Band Outdoor Unified Access Point is an access point specially designed for medium distance wireless network bridging services, providing WDS/backhauling networking applications on its 5 GHz band. Featuring the 5 Ghz 8 dBi MIMO directional patch antenna, providing up to 1.5km wireless bridging distance. With WDS support, network administrators can set up multiple DWL-6700APs throughout a facility and configure them to bridge with one another using the 5 GHz band while also providing network access to individual clients on the 2.4GHz band.
The DWL-6700AP has a sleek, weatherproof housing design with an embedded antenna so it can be easily mounted onto a pole or wall. Its ability to operate between -30°C to 50°C, protecting against exposure to heat, cold or rain makes this an ideal outdoor wireless access point.
Combining the DWL-6700AP with a Unified Wireless Switch or Controller allows you to create a wireless network that enables people to move freely around a building without losing connectivity.
Using the latest generation of dual-band Wireless N technology, the DWL-6700AP delivers great wireless performance and coverage of up to 1.5km in a compact design.
Delivers reliable wireless performance with maximum wireless signal rates of up to 300 Mbps in both the 2.4 GHz and 5 GHz mode.
Supports up to 8 SSIDs, 4 per radio, including Station Isolation
Can be centrally managed. when working in conjunction with D-Link Unified Switches/Wireless Controllers, This allows a large number of APs to be deployed and managed easily and efficiently.
|Wireless Standard||B, G, N||B, G, N||B, G, N||B, G, N, AC|
|Frequency||2.4GHz||2.4GHz||2.4GHz, 5GHz||2.4GHz, 5GHz|
|Suggested number of users||Up to 25
|Up to 40
|Up to 75
|Up to 250
* Range indicates the maximum distance where the highest throughput can be achieved, anything beyond this distance results in a loss of throughput.
Data Transfer Rate
Web-based User Interface
Power Adapter (PoE injector)
Power over Ethernet
1 300 Mbps is the maximum wireless signal rate as specified by the IEEE 802.11n standard. Actual data throughput will vary. The network and other factors, including volume of network traffic, building materials, and nearby radio interference may lower actual data throughput.
2 Non-standard PoE 24V / 1A.